Urolithiasis. 2016 Oct 1. [Epub ahead of print]
Microstructures of Randall's plaques and their interfaces with calcium oxalate monohydrate kidney stones reflect underlying mineral precipitation mechanisms.Abstract
Randall's plaques (RP) are preferred sites for the formation of calcium oxalate monohydrate (COM) kidney stones. However, although processes of interstitial calcium phosphate
(CaP) plaque formation are not well understood, the potential of plaque
microstructures as indicators of CaP precipitation conditions received
only limited attention. We investigated RP-associated COM stones
for structural details of the calcified tissues and microstructural
features of plaque-stone interfaces as indicators of the initial
processes of stone formation. Significantly increased CaP
supersaturation can be expected for interstitial fluid, if reabsorbed
ions from the tubular system continuously diffuse into the collagenous
connective tissue. Densely packed, fine-grained CaP particles were found
in dense textures of basement membranes while larger, laminated
particles were scattered in coarse-meshed interstitial tissue, which we
propose to be due to differential spatial confinements and restrictions
of ion diffusion. Particle morphologies suggest an initial precipitation
as metastable amorphous calcium phosphate
(ACP). Morphologies and arrangements of first COM crystals at the
RP-stone interface ranged from stacked euhedral platelets to skeletal
morphologies and even porous, dendritic structures, indicating, in this
order, increasing levels of COM supersaturation. Furthermore, these
first COM crystals were often coated with CaP. On this basis, we propose
that ions from CaP-supersaturated interstitial fluid may diffuse
through porous RP into the urine, where a resulting local increase in
COM supersaturation could trigger crystal nucleation and, hence,
initiate stone formation. Ion-depleted fluid in persistent pores of
initial COM layers may get replenished from interstitial fluid, leading
to CaP precipitation in porous COM.
KEYWORDS:
Calcium oxalate monohydrate; Calcium phosphate; Interstitial plaque; Microstructure; Nephrolithiasis; Precipitation mechanism- PMID:
- 27695926
- DOI:
- 10.1007/s00240-016-0925-2
- [PubMed - as supplied by publisher]
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